Cell Physiology
Thought Questions for Exam 2
1. Why
are there so many types of cell-to-cell and cell-to-matrix interaction? What is the function of each type? What would happen if one or two types were
missing? Are these interactions specific
for different types of cell or are they found in all eukaryotic cells?
2. What
are the different ways that one cell can communicate with another cell? What are the different types of molecule
required for the communication? How does
a target cell process information received from a signaling cell? What do these target cells actually do after
receiving these signals?
3. For cells in culture, how does focal contact
affect cell proliferation?
4. What
is the advantage of having one kinase receptor being
able to activate multiple pathways?
5. How
are cell in culture induced to grow (or undergo cell proliferation)? Discuss all pathways that are involved (that
are discussed in class so far).
6. What
are the functions of: Ion-channel
receptor, G-protein-linked receptor, Receptor Tyrosine Kinase,
and Kinase-linked receptor? What is/are the ultimate goal of pathways
that activated by these receptors? How
are these receptors controlled/activated?
How do these various pathways interact with one another?
7. Why are there so many steps and regulations
during the MAP kinase signal transduction
pathway? What is the function of each
protein or enzyme? What might happen if one were missing? What is the function of GAP? Why is this function necessary? What might happen to the cell if GAP were
missing?
8. What
processes or pathways are affected if all G proteins (or GTPase)
are rendered nonfunctional? Why? Is there any way to get around this
problem? What is the
difference between phosphorylation and an exchange of GDP for GTP?
9. How
does a cell know when to perform a particular function?
10. How
do the various signal transduction pathways interact with one another? Why do they interact with one another?
11. What is the function these processes: dimerization of a
membrane receptor, hydrolysis of GTP, and autophosphorylation
of the EGF receptor dimer.
12. Compare and contrast the activities and
functions of the Endocrine system, Paracrine system,
and Autocrine system.
13. Discuss the role of microfilaments in the
growth of cells in culture. What is/are
required for the process of microfilament polymerization? Experimentally, what can a researcher do to
regulate (i.e. induce or inhibit) cell proliferation in culture?
14. Discuss the role of microfilaments in
cell-to-cell and cell-to-extracellular matrix interaction.